Polycarbonate in construction and building

High-performance thermoplastic polycarbonate is widely utilized in building and construction items, such as exterior LED lighting elements, wall panels, roof domes, windows, and skylights. Polycarbonate has many qualities that make it useful in various applications, including strong impact and heat resistance, good flammability resistance, great optical clarity, and durability.

The several building applications that benefit from polycarbonate's excellent performance are listed below:

  • Glass can be substituted with polycarbonate in a range of window and skylight applications. In addition to letting natural light into a building, polycarbonate sheets and panels can be tinted to cut down on the amount of sunshine that reflects within a structure and reduce summer interior cooling expenses. A standard application of solar-control polycarbonate sheet for window and roof glazing can, depending on the gauge, help to lower interior heat and save energy in a temperature-controlled environment.
  • Polycarbonate sheet products are designed and supplied in a wide range of thicknesses, structural strengths and configurations that also meet LEED requirements. These materials range from opaque cladding panels to canopies, barrel vaults, skylights, translucent walls and signage, roof domes and louvers. Thermoforming is a heat-based thermoplastic molding process that can be used to give polycarbonate a wide range of complex shapes. Like metal, these can also be cold bent. Numerous architectural features, such as accentuated curves of arches or straight panels, are made possible by a number of polycarbonate forming processes.
  • With its energy savings, long life and durability, light-emitting diode (LED) lighting is a top choice for both residential and commercial lighting fixtures. It is a durable external element for LED lighting that maintains its crystal clarity over time. In addition, it is low flammable, transparent, impact and heat-resistant, and offers increased energy efficiency when used in LED lights.
  • Security glazing, which fortifies prisons, guard booths, bank teller shields, convenience stores, hurricane shutters, field hockey rink enclosures, etc., is made of polycarbonate. In particular, it is an excellent material for security applications, such as blast and bullet resistant windows, because of its impact resistance. It is as transparent as glass and has an advantage over substitutes such as glass wire and metal screens. It offers substantial insulation when used in a multi-wall configuration, which improves energy efficiency. Likewise, it can also increase energy efficiency and offer protection against infrared radiation when coated with solar control technology.
  • Sports stadium roofs make considerable use of polycarbonate to shield spectators from inclement weather and continue play, while letting in natural light and reducing energy use.

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